External Sensor Assembly for Vehicles
A sensor assembly may include a housing and a collection of optical sensors. The housing may include a base portion, and a raised portion defining a summit of the housing. A collection of optical sensors may include a first set of forward-facing optical sensors individually aligned with a corresponding opening in a front segment of the base portion for the housing, a second set of rear-facing optical sensors individually aligned with a corresponding opening in a rear segment of the base portion for the housing, and multiple sets of lateral optical sensors. Each set of lateral optical sensors may be aligned with a corresponding opening in one of multiple lateral segments of the base portion of the housing. Additionally, at least a first long distance sensor may be mounted on the summit.
Examples relate to an external sensor assembly for vehicles.
BACKGROUNDAutonomous vehicles refer to vehicles which replace human drivers with sensors and computer-implemented intelligence, and other automation technology. Under existing technology, autonomous vehicles can readily handle driving with other vehicles on roadways such as highways. However, urban settings can pose challenges to autonomous vehicles, in part because crowded conditions can cause errors in interpretation of sensor information.
Examples relate to an external sensor assembly for vehicles. In particular, examples include an external sensor assembly for use with an autonomous vehicle. Still further, an external sensor assembly such as described with various examples may be used with hybrid vehicles, which can enable various degrees of autonomous driving.
In some examples, a sensor assembly includes a housing that can be mounted to a vehicle in order to enable autonomous driving. Among other benefits, the sensor assembly can retrofit onto existing vehicles to enable such vehicles to have autonomous driving and/or enhanced sensing capabilities.
In some examples, the sensor assembly is modular, so that it can be placed or mounted onto a vehicle as a unit. In some examples, the components of the sensor assembly are operatively interconnected within a housing, so that the sensor assembly can be made operational with power and external connectivity to a control system of the vehicle.
Some examples include a sensor assembly for a vehicle. The sensor assembly may include a housing and a collection of optical sensors. The housing may include a base portion, and a raised portion defining a summit of the housing, wherein the housing is mounted to an exterior of the vehicle. A collection of optical sensors may include a first set of forward-facing optical sensors, a second set of rear-facing optical sensors, and multiple sets of lateral optical sensors. The first set of forward-facing optical sensors can be individually aligned with a corresponding opening in a front segment of the base portion for the housing. The second set of rear-facing optical sensors may be individually aligned with a corresponding opening in a rear segment of the base portion for the housing. Each set of lateral optical sensors may be aligned with a corresponding opening in one of multiple lateral segments of the base portion of the housing. Additionally, at least a first long distance sensor may be mounted on the summit.
According to other examples, a housing is provided for a sensor assembly of a vehicle. The housing includes a base portion and a raised portion defining a summit of the housing. The housing may also include a first set of openings provided on a forward-facing segment of the base portion, with the first set of openings being dimensioned and positioned on the base portion to align with a first set of forward-facing optical sensors. Additionally, the housing may include a second set of openings provided on a rear-facing segment of the base portion, and the second set of openings may be dimensioned and positioned on the base portion to align with a second set of rear-facing optical sensors. Still further, the housing may include multiple sets of lateral openings, and each of the openings of the multiple sets may be dimensioned and positioned on the base portion to align with a corresponding lateral-facing sensor.
Numerous examples are referenced herein in context of an autonomous vehicle. An autonomous vehicle refers to any vehicle which is operated in a state of automation with respect to steering and propulsion. Different levels of autonomy may exist with respect to autonomous vehicles. For example, some vehicles today enable automation in limited scenarios, such as on highways, provided that drivers are present in the vehicle. More advanced autonomous vehicles drive without any human driver inside the vehicle. Such vehicles often are required to make advance determinations regarding how the vehicle behaves given challenging surroundings of the vehicle environment.
According to some examples, the 100 includes an 110 that is shaped to enable positioning of various types of sensors, in a manner that promotes optimal use of such sensors. In an example shown, a front end of the 100 includes multiple forward-facing optical sensors, such as three long range stereoscopic cameras 129A and a pair of alternative stereoscopic cameras 129B that is part of a larger set for providing 360 degree surround stereo vision. A rotatable long-range sensor 125 is mounted at a summit 118 of the housing 110. Additionally, a traffic camera 123 can be provided at a raised and angled wall 111 of the housing 110.
With further reference to
According to some examples, an assembly housing 110 of an external sensor assembly 100 (see
In one variation, the assembly housing 110 can include an open bottom construction, such that the roof 12 encloses a space that is partially defined by the housing. In variations, the assembly housing 110 is self-enclosed, so as to include a bottom surface. In such examples, the assembly housing 110 is modular, so as to be assembled to retain sensor components, and to mount to the roof 12 of the vehicle 10 (see
According to some examples, the assembly housing 110 is shaped to retain sensors for the autonomous vehicle in an orientation and relative position that optimizes the view available to selective and specialized sensors that are utilized by the autonomous vehicle. In an example of
According to some examples, the assembly housing 110 can also include a set of air vents/openings and/or grills to enable the flow of air into and/or out of the interior of the assembly housing 110. The sensor assembly 100 can include a plurality of sensor components and other electrical components (e.g., circuit boards, cables, wires, etc.) that generate heat as a result of operation or usage. Because the assembly housing 110 can provide an enclosure to house and protect the sensor and electrical components, the interior of the assembly housing 110 can become very hot. The set of vents can enable airflow and circulation of air from inside the sensor assembly 100 to the outside of the sensor assembly 110 and vice versa. In one example, the sensor assembly 110 can include one or more heat sinks and/or one or more fans that can facilitate the movement of air. The fan(s) can be positioned to move air in and out of the openings. Depending on implementation, for example, one or more vents can be positioned at the front segment 105, the lateral segments(s) 107, and/or the rear-facing segment 109 (e.g., between the one or more openings 121 or above or below the one or more openings 121). As an addition or a variation, one or more vents and/or grills can be positioned on the raised housing portion 112, such as on the front wall 111, the rear wall 113, and/or the lateral walls (see e.g., the vents to the right and left of the camera on the front wall 111 of the raised housing portion 112 of
The interior body 120 includes one or more trunks which extend in the Y direction. In one example, the interior body 120 includes a front trunk 122 on which a collection of optical sensors 129 are mounted. A vertical section 124 may extend from the front trunk 122 so as to be housed within the raised housing portion 112. The vertical section 124 can retain one or multiple sensor components 131 (e.g., traffic camera) about the front and rear walls 111, 113, as well as sidewalls 115 of the raised portion 112 of housing 110 (see
In some examples, each of the front and rear trunk 122, 132 can include branch extensions 136, 138 respectively which extend acutely from the respective front and rear trunks 122, 132. Each branch extension 136, 138 can include one or more sensor components 135, 137, which are affixed and aligned to openings 121 of the corresponding lateral segments 107 (see
According to some examples, the sensor components of the sensor assembly 100, 200 include (i) a set of long range cameras, provided by two or three cameras which are affixed to the interior body 120 (see
It is contemplated for embodiments described herein to extend to individual elements and concepts described herein, independently of other concepts, ideas or system, as well as for embodiments to include combinations of elements recited anywhere in this application. Although embodiments are described in detail herein with reference to the accompanying drawings, it is to be understood that the invention is not limited to those precise embodiments. As such, many modifications and variations will be apparent to practitioners skilled in this art. Accordingly, it is intended that the scope of the invention be defined by the following claims and their equivalents. Furthermore, it is contemplated that a particular feature described either individually or as part of an embodiment can be combined with other individually described features, or parts of other embodiments, even if the other features and embodiments make no mentioned of the particular feature. Thus, the absence of describing combinations should not preclude the inventor from claiming rights to such combinations.
Claims
1.-20. (canceled)
21. An external sensor assembly for a vehicle, the external sensor assembly comprising:
- a housing comprising: a front segment; a rear segment; and a set of air vents to enable air to circulate within the external sensor assembly;
- a collection of sensors, comprising a first set of forward-facing sensors that are each aligned with a corresponding opening in the front segment of the housing, and a second set of rear-facing sensors that are each aligned with a corresponding opening in the rear segment of the housing; and
- at least a first long distance sensor mounted to the housing.
22. The external sensor assembly of claim 21, further comprising multiple sets of lateral sensors, each set of lateral sensors being aligned with a corresponding opening in one or more lateral segments of the housing.
23. The external sensor assembly of claim 21, wherein the forward-facing sensors are optical sensors.
24. The external sensor assembly of claim 21, wherein the rear-facing sensors are optical sensors.
25. The external sensor assembly of claim 21, further comprising a sonar unit.
26. The external sensor assembly of claim 21, further comprising:
- multiple wireless transceivers, each of the multiple wireless transceivers to at least receive or transmit wireless data of a corresponding type.
27. The external sensor assembly of claim 26, further comprising:
- one or more antenna structures integrated with the housing for use with the multiple wireless transceivers.
28. The external sensor assembly of claim 21, wherein the collection of sensors includes multiple sets of stereoscopic cameras.
29. The external sensor assembly of claim 28, wherein the housing comprises openings for sets of at least two cameras which collectively provide a stereoscopic camera set.
30. The external sensor assembly of claim 21, wherein the collection of sensors comprising at least one designated forward-facing camera positioned to detect a traffic light as the vehicle approaches the traffic light.
31. The external sensor assembly of claim 21, further comprising a mapping sensor provided with an exterior surface of the housing.
32. The external sensor assembly of claim 21, wherein the housing is structured to mount to a roof of an exterior surface of the vehicle.
33. The external sensor assembly of claim 21, wherein the housing is unitary.
34. The external sensor assembly of claim 21, wherein the housing is modular.
35. The external sensor assembly of claim 21, wherein the first long distance sensor is rotatable.
36. The external sensor assembly of claim 21, wherein the first long distance sensor is a LIDAR sensor.
37. A vehicle comprising:
- an exterior surface; and
- an external sensor assembly attached to the exterior surface,
- the external sensor assembly comprising: a housing comprising a front segment, a rear segment, and a set of air vents to enable air to circulate within the external sensor assembly; a collection of sensors, including a first set of forward-facing sensors that are each aligned with a corresponding opening in the front segment of the housing, and a second set of rear-facing sensors which are individually aligned with a corresponding opening in the rear segment of the housing; and at least a first long distance sensor mounted to the housing.
38. The vehicle of claim 37, wherein the external sensor assembly further comprises multiple sets of lateral sensors, each set of lateral sensors being aligned with a corresponding opening of the housing.
39. An autonomous vehicle, comprising:
- an onboard computing system
- an exterior surface; and
- an external sensor assembly attached to the exterior surface and in communication with the onboard computing system, the external sensor assembly comprising: a housing comprising ventilation to enable air to circulate within the external sensor assembly; a collection of sensors, including a first set of forward-facing sensors which are individually aligned with a corresponding opening in the housing, and a second set of rear-facing sensors which are individually aligned with a corresponding opening in the housing; and at least a LIDAR sensor mounted to the housing.
40. The autonomous vehicle of claim 39, wherein at least one of the forward-facing or the rear-facing sensors comprise one or more optical sensors, and wherein the LIDAR sensor is rotatable.
Type: Application
Filed: Jul 5, 2019
Publication Date: Nov 28, 2019
Patent Grant number: 11472349
Inventor: Brian Zajac (Pittsburgh, PA)
Application Number: 16/504,049